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Dynamic Behavior Investigation of the Piezoelectric PVDF for Flexible Fingerprint

Published online by Cambridge University Press:  01 February 2011

Wen-Yang Chang ,
Ying-Hui Cheng ,
Shu-Yuan Liu ,
Ying-Chiang Hu  and
Yu-Cheng Lin
Wen-Yang Chang
Affiliation:
[email protected], National Cheng Kung University / Industrial Technology Research Institute, Department of Engineering Science / Microsystems Technology Center, No.31, Gongye 2nd Rd., Annan District,, Tainan Taiwan (R.O.C.), Tainan, 709, Taiwan, +886 6 3847148, +886 6 3847298
Ying-Hui Cheng
Affiliation:
[email protected], Industrial Technology Research Institute, Microsystems Technology Center, No.31, Gongye 2nd Rd., Annan District, Tainan, 709, Taiwan
Shu-Yuan Liu
Affiliation:
[email protected], Industrial Technology Research Institute, Microsystems Technology Center, No.31, Gongye 2nd Rd., An nan District, Tainan, 709, Taiwan
Ying-Chiang Hu
Affiliation:
[email protected], Industrial Technology Research Institute, Microsystems Technology Center, No.31, Gongye 2nd Rd., Annan District, Tainan, 709, Taiwan
Yu-Cheng Lin
Affiliation:
[email protected], National Cheng Kung University, Department of Engineering Science, 1 University Road, Tainan, 701, Taiwan
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Abstract

The paper reported a novel flexible concept for acquiring the fingerprint that based on the piezoelectric PVDF (polyvinylidene fluoride) was integrated into the flexible polyimide substrate to form the fingerprint. In this study, it focused on the array PVDF fabrication and dynamic control circuit to read pressure signal for fingerprint identification. The fabrication of PVDF powder was melt at 180°C, pressed under 2 tons and subsequently quenched at 10°C/min to form the PVDF films. Next the PVDF films were put into the oven at different temperatures for 40 minutes to stretch 4 times from its original length. As for the dynamic control, the sensing circuit was presented two parts, one is charge amplifier and the other is capacitance detect by using frequency oscillator. We demonstrated that the dynamic pressure measurement of PVDF could achieve fingerprint acquisition. Experimental results showed the response speed of sensing is as fast as 5 ms. Therefore, the aim of this study is to speed up the technology for promoting the flexible fingerprint.

Keywords

polymerpiezoelectricmicroelectro-mechanical (MEMS)
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 949: Symposium C – Smart Dielectric Polymer Properties, Characterization and Their Devices , 2006 , 0949-C06-06
Copyright
Copyright © Materials Research Society 2007

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References

REFERENCES

1. Jang, J., Materials Today, 9 4652 (2006).Google Scholar
2. Street, R. A., Wong, W. S., Ready, S. E., Chabinyc, M. L., Arias, A. C. and Limb, S., Materials Today, 9 3237 (2006).Google Scholar
3. Park, L. S., Park, J. W., Choi, H. Y., Han, Y. S., Kwon, Y. and Choi, H. S., Current Applied Physics, 6 644648 (2006).Google Scholar
4. Xiongwu, X. and Lawrence, O., Pattern Recognition, 36 361369 (2003).Google Scholar
5. Jung, S. M., Nam, J. M., Yang, D. H. and Lee, M. K., IEEE Journal of Solid-State Circuits, 40 17451750 (2005).Google Scholar
6. Sato, N., Shigematsu, S., Morimura, H., Yano, M., Kudou, K., Kamei, T. and Machida, K., Electron Devices, IEEE Transactions, 52 10261032 (2005).Google Scholar
7. Schippers, P., Dobmeier, M. P., Kuehlewein, R., Bustgens, B. and Urban, G., Solid-State Sensors, Actuators and Microsystems, 1 579580 (2005).Google Scholar
8. Norio, S., Hiroki, M., Satoshi, S. and Katsuyuki, M., Japanese Journal of Applied Physics, 44 64816489 (2005).Google Scholar
9. Takao, H., Miyasaka, M., Kawai, H., Hara, H., Miyazaki, A., Kodaira, T., Tam, S. W., Inoue, S., and Shimoda, T., Solid-State Device Research conference, 34th European, 309 – 312 (2004).Google Scholar
10. Han, J., Tan, Z. Y. and Shikida, M., J. of Micromechanics & Microeng, 15 282289 (2005).Google Scholar
11. Ramos, M. D., Correia, H. G. and Mendez, S. L., Comp- put. Mater. Sc., 33 230236 (2005).Google Scholar